Here's a high level summary of the changes in this patch. For more
information on rational, see the RFC.
(https://discourse.llvm.org/t/rfc-a-unified-lto-bitcode-frontend/61774).
- Add config parameter to LTO backend, specifying which LTO mode is
desired when using unified LTO.
- Add unified LTO flag to the summary index for efficiency. Unified
LTO modules can be detected without parsing the module.
- Make sure that the ModuleID is generated by incorporating more types
of symbols.
Differential Revision: https://reviews.llvm.org/D123803
SubtargetFeature.h is currently part of MC while it doesn't depend on
anything in MC. Since some LLVM components might have the need to work
with target features without necessarily needing MC, it might be
worthwhile to move SubtargetFeature.h to a different location. This will
reduce the dependencies of said components.
Note that I choose TargetParser as the destination because that's where
Triple lives and SubtargetFeatures feels related to that.
This issues came up during a JITLink review (D149522). JITLink would
like to avoid a dependency on MC while still needing to store target
features.
Reviewed By: MaskRay, arsenm
Differential Revision: https://reviews.llvm.org/D150549
Remove dead code related to "FPasses". This was a leftover from
commit 7a5332b9b5584ce.
Do not mention -enable-new-pm in error messages. The option does
not exist any longer.
Remove the addPass helper. Only one use remained, so we can just
"inline" it manually to keep the code related to legacy PM a bit
less spread out.
Differential Revision: https://reviews.llvm.org/D148082
This removed the option print-breakpoints-for-testing in opt, as well
as the related BreakpointPrinter pass.
The functionality only existed for the legacy PM, but was not verified
to be working by any test cases. And the named "llvm.dbg.sp" metadata
that the pass was looking for is not something that I really can find
any information about (unless perhaps if I dive really deep into the
commit history), so not sure exactly if this functionality has been
relevant for several years.
Differential Revision: https://reviews.llvm.org/D148080
-enable-new-pm is no longer necessary except for bugpoint. Make the name more clunky so it hopefully won't be used.
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D146103
With the NPM, we're now defaulting to preserving LCSSA, so a couple
of tests have changed slightly.
Differential Revision: https://reviews.llvm.org/D140982
The forwarding header is left in place because of its use in
`polly/lib/External/isl/interface/extract_interface.cc`, but I have
added a GCC warning about the fact it is deprecated, because it is used
in `isl` from where it is included by Polly.
When opaque pointers are enabled and old IR with typed pointers is read,
the BitcodeReader automatically upgrades all typed pointers to opaque
pointers. This is a lossy conversion, i.e. when a function argument is a
pointer and unused, it’s impossible to reconstruct the original type
behind the pointer.
There are cases where the type information of pointers is needed. One is
reading DXIL, which is bitcode of old LLVM IR and makes a lot of use of
pointers in function signatures.
We’d like to keep using up-to-date llvm to read in and process DXIL, so
in the face of opaque pointers, we need some way to access the type
information of pointers from the read bitcode.
This patch allows extracting type information by supplying functions to
parseBitcodeFile that get called for each function signature or metadata
value. The function can access the type information via the reader’s
type IDs and the getTypeByID and getContainedTypeID functions.
The tests exemplarily shows how type info from pointers can be stored in
metadata for use after the BitcodeReader finished.
Differential Revision: https://reviews.llvm.org/D127728
This reverts commit b56df190b01335506ce30a4559d880da76d1a181.
The unit tests are implemented in a way that requires support for
writing typed pointer bitcode, which is going away soon. Please
rewrite it in a way that not have requirement, e.g. by shipping
pre-compiled bitcode, as we do for integration tests.
When opaque pointers are enabled and old IR with typed pointers is read,
the BitcodeReader automatically upgrades all typed pointers to opaque
pointers. This is a lossy conversion, i.e. when a function argument is a
pointer and unused, it’s impossible to reconstruct the original type
behind the pointer.
There are cases where the type information of pointers is needed. One is
reading DXIL, which is bitcode of old LLVM IR and makes a lot of use of
pointers in function signatures.
We’d like to keep using up-to-date llvm to read in and process DXIL, so
in the face of opaque pointers, we need some way to access the type
information of pointers from the read bitcode.
This patch allows extracting type information by supplying functions to
parseBitcodeFile that get called for each function signature or metadata
value. The function can access the type information via the reader’s
type IDs and the getTypeByID and getContainedTypeID functions.
The tests exemplarily shows how type info from pointers can be stored in
metadata for use after the BitcodeReader finished.
Differential Revision: https://reviews.llvm.org/D127728
Use the existing mechanism to change the data layout using callbacks.
Before this patch, we had a callback type DataLayoutCallbackTy that receives
a single StringRef specifying the target triple, and optionally returns
the data layout string to be used. Module loaders (both IR and BC) then
apply the callback to potentially override the module's data layout,
after first having imported and parsed the data layout from the file.
We can't do the same to fix invalid data layouts, because the import will already
fail, before the callback has a chance to fix it.
Instead, module loaders now tentatively parse the data layout into a string,
wait until the target triple has been parsed, apply the override callback
to the imported string and only then parse the tentative string as a data layout.
Moreover, add the old data layout string S as second argument to the callback,
in addition to the already existing target triple argument.
S is either the default data layout string in case none is specified, or the data
layout string specified in the module, possibly after auto-upgrades (for the BitcodeReader).
This allows callbacks to inspect the old data layout string,
and fix it instead of setting a fixed data layout.
Also allow to pass data layout override callbacks to lazy bitcode module
loader functions.
Differential Revision: https://reviews.llvm.org/D140985
This is part of effort in removing -enable-new-pm flag.
As a prat of this effort one of example passes SimplifyCFG must
be ported to new PM which will allow to remove the flag
calls from the tests that are using this pass.
Reviewed By: aeubanks
Differential Revision: https://reviews.llvm.org/D137103
This change is rather more invasive than intended. The main intention
here is to make CommandLine.cpp not rely on llvm/Support/Host.h. Right
now, this reliance is only in 3 superficial places:
- Choosing how to expand response files (in two places)
- Printing the default triple and current CPU in `--version` output.
The built in version system has a method for adding "extra version
printers", commonly used by several tools (such as llc) to report the
registered targets in the built version of LLVM. It was reasonably easy
to move the logic for printing the default triple and current CPU into
a similar function, and register it with any relevant binaries.
The incompatible change here is that now, even if
LLVM_VERSION_PRINTER_SHOW_HOST_TARGET_INFO is defined, most binaries
will no longer print out the default target triple and cpu when provided
with `--version`, for instance llvm-as and llvm-dis. This breakage is
intended, but the changes in this patch keep printing the default target
and detected in `llc` and `opt` as these were remarked as important
binaries in the LLVM install.
The change to expanding response files may also be controversial, but I
believe that these macros should correspond exactly to the host triple
introspection used before.
Differential Revision: https://reviews.llvm.org/D137837
We've already verified the input module manually in opt so this is redundant.
Reviewed By: bjope
Differential Revision: https://reviews.llvm.org/D139899
I've done final pass, and there are no more tests to update.
All other tests (=codegen tests) are using old pass manager.
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D139677
Over the past day or so, i've took a large swing at our tests,
and reduced the number of tests that were still using the old syntax
from ~1800 to just 200.
Left to handle: (as it is seen in this patch)
* Transforms/LSR
* Transforms/CGP
* Transforms/TypePromotion
* Transforms/HardwareLoops
* Analysis/*
* some misc.
I think this is the right point to start actively refusing
to honor the old syntax, except for the old tests,
to prevent the old syntax from creeping back in.
Thus, let's add temporary default-off flag,
and if it is not passed refuse to accept old syntax.
The tests that still need porting are annotated with this flag.
Reviewed By: aeubanks
Differential Revision: https://reviews.llvm.org/D139647
This patch mechanically replaces None with std::nullopt where the
compiler would warn if None were deprecated. The intent is to reduce
the amount of manual work required in migrating from Optional to
std::optional.
This is part of an effort to migrate from llvm::Optional to
std::optional:
https://discourse.llvm.org/t/deprecating-llvm-optional-x-hasvalue-getvalue-getvalueor/63716
As stated in
https://discourse.llvm.org/t/rfc-llc-add-expandlargeintfpconvert-pass-for-fp-int-conversion-of-large-bitint/65528,
this implementation is very similar to ExpandLargeDivRem, which expands
‘fptoui .. to’, ‘fptosi .. to’, ‘uitofp .. to’, ‘sitofp .. to’ instructions
with a bitwidth above a threshold into auto-generated functions. This is
useful for targets like x86_64 that cannot lower fp convertions with more
than 128 bits. The expanded nodes are referring from the IR generated by
`compiler-rt/lib/builtins/floattidf.c`, `compiler-rt/lib/builtins/fixdfti.c`,
and etc.
Corner cases:
1. For fp16: as there is no related builtins added in compliler-rt. So I
mainly utilized the fp32 <-> fp16 lib calls to implement.
2. For fp80: as this pass is soft fp emulation and no fp80 instructions can
help in this problem. I recommend users to deprecate this usage. For now, the
implementation uses fp128 as the temporary conversion type and inserts
fptrunc/ext at top/end of the function.
3. For bf16: as clang FE currently doesn't support bf16 algorithm operations
(convert to int, float, +, -, *, ...), this patch doesn't consider bf16 for
now.
4. For unsigned FPToI: since both default hardware behaviors and libgcc are
ignoring "returns 0 for negative input" spec. This pass follows this old way
to ignore unsigned FPToI. See this example:
https://gcc.godbolt.org/z/bnv3jqW1M
The end-to-end tests are uploaded at https://reviews.llvm.org/D138261
Reviewed By: LuoYuanke, mgehre-amd
Differential Revision: https://reviews.llvm.org/D137241
As part of legacy PM optimization pipeline removal.
This shouldn't be used in codegen pipelines so it should be ok to remove.
Reviewed By: asbirlea
Differential Revision: https://reviews.llvm.org/D137116
And a possible opt invocation plus a link to more extensive documentation.
Reviewed By: asbirlea
Differential Revision: https://reviews.llvm.org/D136617
When running a default pipeline (for a specific O-level) in opt it is
now expected that the new PM should be used. Only reason to use the
legacy PM is when testing a pass that is locked to the legacy PM (or
when testing single passes, for example used by the llc backend).
If a test should run both a default pipeline plus some other passes,
the solution would be to invoke opt twice (separating the default
pipeline execution from the execution of individual passes).
Starting with this patch "opt -O0" etc. will result in an error.
Differential Revision: https://reviews.llvm.org/D137663
This doesn't touch objc-arc-contract because that's in the codegen pipeline.
However, this does move its corresponding initialize function into initializeCodegen().
Reviewed By: asbirlea
Differential Revision: https://reviews.llvm.org/D135041
Adds a pass ExpandLargeDivRem to expand div/rem instructions
with more than 128 bits into a loop computing that value.
As discussed on https://reviews.llvm.org/D120327, this approach has the advantage
that it is independent of the runtime library. This also helps the clang driver,
which otherwise would need to understand enough about the runtime library
to know whether to allow _BitInts with more than 128 bits.
Targets are still free to disable this pass and instead provide a faster
implementation in a runtime library.
Fixes https://github.com/llvm/llvm-project/issues/44994
Differential Revision: https://reviews.llvm.org/D126644
Using the legacy PM for the optimization pipeline is deprecated and in
the process of being removed. This is a small step in that direction.
For an example of migrating to the new PM:
853b57fe80
Debugify in OriginalDebugInfo mode, introduced with D82545,
runs only with legacy PassManager.
This patch enables this utility for the NewPM.
Differential Revision: https://reviews.llvm.org/D115351
This is the first commit for the cmov-vs-branch optimization pass.
The goal is to develop a new profile-guided and target-independent cost/benefit analysis
for selecting conditional moves over branches when optimizing for performance.
Initially, this new pass is expected to be enabled only for instrumentation-based PGO.
RFC: https://discourse.llvm.org/t/rfc-cmov-vs-branch-optimization/6040
Reviewed By: tejohnson
Differential Revision: https://reviews.llvm.org/D120230
A new pass DXILOpLowering was added.
It will scan all llvm intrinsics, create dxil op function if it can map to dxil op function.
Then translate call instructions on the intrinsic into call on dxil op function.
dxil op function will add i32 argument to the begining of args for dxil opcode.
So cannot use setCalledFunction to update the call instruction on intrinsic.
This commit only support sin to start the work.
Reviewed By: kuhar, beanz
Differential Revision: https://reviews.llvm.org/D124805
Matches the error message we emit with `-opt -O# --passes=foo`.
Otherwise we crash later on.
Makes #55320 much less confusing.
Reviewed By: MaskRay
Differential Revision: https://reviews.llvm.org/D125196
The legacy passes are deprecated now and would be removed in near
future. This patch tries to remove legacy passes in coroutines.
Reviewed By: aeubanks
Differential Revision: https://reviews.llvm.org/D123918
Or rather, error out if it is set to something other than ON. This
removes the ability to enable the legacy pass manager by default,
but does not remove the ability to explicitly enable it through
various flags like -flegacy-pass-manager or -enable-new-pm=0.
I checked, and our test suite definitely doesn't pass with
LLVM_ENABLE_NEW_PASS_MANAGER=OFF anymore.
Differential Revision: https://reviews.llvm.org/D123126
This is legacy PM-specific, which is deprecated.
Uses of this should be replaced with a corresponding `-passes='print<foo>'`.
Reviewed By: asbirlea
Differential Revision: https://reviews.llvm.org/D122420
Before we start addressing the issue with having
a lot of false positives when using debugify in
the original mode, we have made a few patches that
should speed up the execution of the testing
utility Passes.
For example, when testing a large project
(let's say LLVM project itself), we can face
a lot of potential DI issues. Usually, we use
-verify-each-debuginfo-preserve (that is very
similar to -debugify-each) -- it collects
DI metadata before each Pass, and after the Pass
it checks if the Pass preserved the DI metadata.
However, we can speed up this process, since we
don't need to collect DI metadata before each
Pass -- we could use the DI metadata that are
collected after the previous Pass from
the pipeline as an input for the next Pass.
This patch speeds up the utility for ~2x.
Differential Revision: https://reviews.llvm.org/D115622
